DE2819204C2 - Circuit arrangement for a direct current and / or alternating current sensitive residual current protective circuit provided with an amplifier - Google Patents

Description

characterized in that and on the other hand via a resistor (9) with the negative supply voltage terminal of the operational amplifier (15) is connected to the Negative line of the system.

3. Circuit arrangement according to claim 1 or 2, characterized in that the connection point the resistors (11, 14) via the resistor (10) to the positive pole of the rectifier bridge circuit (4) and at the same time to the trigger element (16) is connected, and that the connection point of the Resistors (12, 14) via the resistor (13) to the negative supply voltage connection of the operational amplifier (15), which is also connected to the negative line of the system.

4. Circuit arrangement according to one of claims 1 to 3, characterized in that one off at least two anti-parallel connected and each looped into the conductor to be monitored Diodes existing non-linear resistance element (3) for generating the supply voltage for the Operational amplifier is provided that connects to the input terminals of both the rectifier bridge circuit (4) and the magnetically controllable component (2) is connected in parallel.

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4. the first voltage divider from an integration element (6, 7) and from one of the integration element downstream diode resistor element (8, 9) and is designed such that

4.1 he one opposite the control signal at the input of the operational amplifier (15) Delayed supply voltage regardless of the speed the rise of this voltage causes, and that

5. the second voltage divider is formed from several resistors (10 to 14), one of which

5.1 a part of the resistors (U, 12, 14) is connected to a bridge circuit, whose a bridge half consists of the adjustable resistor (14), wherein

5.2 the midpoint of the second half of the bridge (point between 11 and 12) with the other output terminal of the magnetically controllable component is connected.

2. Circuit arrangement according to claim 1, characterized in that the first voltage divider from a resistor (6) and a capacitor (7) and parallel to a charging capacitor (5) is connected, and that the connection point of the resistor (6) with the capacitor (7) to the Anode connection of a diode (8) is performed, the negative pole of which on the one hand with the positive supply voltage connection of the operational amplifier (15) The invention relates to a circuit arrangement for a DC and / or AC sensitive fault current protection circuit according to the preamble of claim 1.

Increasingly, electronically controlled electrical devices are used in industry and households.

Ji sets. This leads to the fact that in these devices The fault current that occurs is no longer a pure alternating current, but one with direct current components Alternating current. The conventional residual current circuit breaker, which is used as a measuring element to detect the Sum of the currents flowing into and out of a system have a summation current transformer no longer reliably detect such fault currents. Depending on the size of the direct current component on the Residual current, the measurement result is more or less sensitively disturbed and the response value of the residual current circuit breaker shifted towards higher values. It was therefore inevitable to have residual current circuit breakers to equip with facilities that make it possible not only to pure alternating current fault current to respond, but also to mixed-current fault current, i. H. with any DC components superimposed alternating current fault current.

A residual current protective circuit according to the preamble of claim 1 that meets these requirements and even works with pure DC fault current is already known (US-PS 36 21334). The reliability of a residual current protective circuit depends to a large extent on the extent to which the marginal error cases, which occur less frequently or only very rarely, are controlled. The case in which an error occurs when the network fails, and with When the mains voltage returns, a fault current begins to flow at the same time. The residual current circuit breaker must shut down within the prescribed period, even if the critical one Residual current already flows at a fraction of the nominal value of the mains voltage. The residual current protection

On the other hand, the switch must not switch off if there is no fault current when the mains voltage returns flows. Such a requirement is not without problems for the operational amplifier of this circuit and cannot be met without additional measures.

The invention is therefore based on the object of providing the residual current protective circuit of the initially described Kind to be upgraded with little effort, that for the operational amplifier both for voltage jumps at the input and for slow ι ο increasing voltage values clear control ratios be created.

According to the invention, this object is achieved by what is stated in the characterizing part of the main claim Feature combinations solved.

The advantages achieved by the invention are that the residual current protection circuit due to Defined initial conditions for the operating point of the operational amplifier also with the circumstances critical special cases is adapted to fully meet the security requirements. the input differential voltage set with the aid of an adjustable resistor. which as negative bias represents the threshold value for the positive signal voltage, increases immediately with the slew rate the supply voltage, while the supply voltage for the operational amplifier via a separate dynamic voltage divider comes into effect with a delay.

Appropriate refinements of the circuit arrangement according to claim 1 are dependent on the subclaims remove.

It is advantageous to use a voltage supply device in the form of a non-linear resistance element, which not only serves to generate the control current for the magnetically controllable component, but also serves to supply the operational amplifier with a supply voltage (claim 4). Although the height of the consumer line current is limited by the maximum w permissible power loss of the non-linear resistor, but the voltage supply is still guaranteed if one or more phase conductors are interrupted in the network and have circuit to the neutral conductor. A possible fault current in this case would flow through the non-linear resistance element and thus generate a voltage for the measuring system.

An embodiment of the invention is shown in the drawing and will be described in more detail below described. The figure shows a circuit arrangement for a direct current and / or alternating current sensitive residual current protective circuit.

According to the figure, in which only one phase conductor is shown for the sake of simplicity, the measuring element is for Acquisition of the sum of the currents flowing into a system in an open magnetic circuit 1, in the air gap of which is a magnetically controllable component 2. The conductor to be monitored is wound in the form of a coil around one leg of the magnetic circuit. (If there are several ladders, then accordingly procedure.) This also applies to the neutral conductor in the case of alternating current and the negative conductor in the case of direct current. The coil of the conductor to be monitored is followed by a diode element 3, which consists of at least two there is anti-parallel connected diodes. On this oppositely connected pair of diodes, which may be can be expanded with appropriately polarized individual diodes, a voltage drops that leads to Generation of the control current for the magnetically controllable component is used and at the same time is used to supply the operational amplifier with a supply voltage. In those cases where the Conductor current is not a pure direct current, a rectification is required for which a rectifier bridge circuit 4 is provided. The rectifier bridge circuit 4 is followed by a charging capacitor 5.

The network provided for setting the operating point of the operational amplifier 15 consists in principle of two separate voltage dividers 6 to 9 and 10 to i4. The first voltage divider contains a fniegration member with a resistor 6 and a capacitor 7 and a diode resistor member 8 and 9. Here, the series circuit of the resistor 6 and the capacitor 7 is parallel to the charging capacitor 5, while the diode 8 in the forward direction with the anode on ^v erbindungspunkl of the resistor 6 and the capacitor is turned on. 7 The cathode of the diode 8 is connected on the one hand to the positive supply voltage connection and on the other hand via the resistor 9 to the negative supply voltage connection of the operational amplifier 15. The first voltage divider 6 to 9 causes, at the moment of switch-on, a supply voltage at the operational amplifier that occurs with a time delay compared to the control signal at the input of the operational amplifier, both for sudden and gradual increases in the DC supply voltage.

The second voltage divider is formed only from ohmic resistors 10 to 14. Here are the two Resistors 11 and 12 joined with an adjustable resistor 14 to form a bridge circuit. Of the The diagonal branch of this bridge circuit contains the series circuit from the voltage path of the magnetic controllable component 2 and the input of the operational amplifier 15. This second voltage divider causes a superposition of the control voltage, which arises in the magnetically controllable component 2, with the threshold value determined by the adjustable resistor 14. Thus the Operational amplifier 15 has the function of a comparator, which after exceeding the response threshold switches its output potential through the signal voltage. The resistors 10 and 13 to the Connection points of the resistors 11 and 14 or 12 and 14 are series resistors. At the exit of the The trigger element 16 is connected to the operational amplifier.

1 sheet of drawings

Claims (3)

Patent claims: 1. Circuit arrangement for a direct current and / or alternating current sensitive residual current protective circuit with 1. a magnetic circuit, 2. a magnetically controllable component as a measuring element to record the sum of the and outflowing currents in a system downstream of the measuring element, 3. the output voltage of the magnetically controllable component to control a Trip link amplifying operational amplifier, the 3.1 is connected as a comparator and its signal voltage is determined by a reference voltage exceeds the specified response threshold only from a certain limit value of the differential current to be detected, 3.2 whose supply voltage is independent of external voltage and via a rectifier circuit and a first voltage divider is led to its supply voltage connections, 3.3 whose inverting input connects directly to an output connection of the magnetic controllable component is connected and 3.4 its non-inverting input to the tap of a, a second voltage divider forming, adjustable resistor is connected,